7 The Xilinx ML300 board is based on the Virtex-II Pro FPGA with
8 integrated AMCC PowerPC 405 core. The board is normally booted from
9 System ACE CF. U-Boot is then run out of main memory.
11 An FPGA is a configurable and thus very flexible device. To
12 accommodate for this flexibility this port of U-Boot includes the
13 required means to regenerate the drivers and configuration files if
14 you decide to change the hardware design. The required steps are
21 To compile and run U-Boot on the Xilinx ML300 platform you need the
24 - A Xilinx ML300 platform (see http://www.xilinx.com/ml300)
25 - EDK and ISE development tools (shipping with ML300)
26 - Parallel4 cable (shipping with ML300)
27 - The EDK reference design for ML300. You can get this as design #6 from
28 http://www.xilinx.com/ise/embedded/edk_examples.htm
35 To compile and run U-Boot on ML300 follow the steps below. Make sure
36 to consult the documentation for U-Boot, EDK, and the EDK reference
37 design for ML300 if you have any questions.
39 1. Implement the EDK reference design for ML300. You can use any of
40 the project files, for example from a xygwin shell:
41 $ xps -nw system_linux.xmp
43 2. Configure and compile U-Boot. Change into the root directory of
45 $ export CROSS_COMPILE=powerpc-eabi-
48 3. Set up the ML300, connect the Parallel4 and the serial cable. Start
49 a terminal on your host computer and set the communication
50 parameters to 9600,8N1,no handshake.
51 4. Set up the BOOTP/TFTP server on your host machine. U-Boot is
52 preconfigured to use a fixed HW MAC address of 00:0A:35:00:22:01.
53 5. Download the bitstream to the ML300.
54 6. Use XMD to download and run U-Boot on the ML300:
60 You can now make an ACE file out of bitstream and U-Boot:
61 $ xmd genace.tcl -jprog -board ml300 -hw \
62 implementation/download.bit -elf u-boot -ace top.ace
64 Put the ACE file onto the MicroDrive, for example into xilinx/myace,
68 3. Generating a Custom BSP for U-Boot
69 -------------------------------------
71 If you decide to change the EDK reference design for ML300 or if you
72 build a new design from scratch either with the Base System Builder in
73 XPS or all by hand you most likely will change the base addresses for
74 the Uart and the Ethernet peripheral. If you do so you will have two
77 1. Edit boards/xilinx/ml300/xparameters.h to reflect the changes you
78 made to your hardware.
79 2. Use the MLD technology provided by Xilinx Platform Studio to make
80 the changes automatically. To do so go to the root directory of the
81 EDK reference design for ML300. Copy the Linux project file and the
82 Linux software configuration file:
83 $ cp system_linux.xmp system_uboot.xmp
84 $ cp system_linux.mss system_uboot.mss
86 Edit system_uboot.xmp and and have it point to system_uboot.mss for
87 the software configuration.
89 Then, copy the sw_services directory in
90 boards/xilinx/ml300/sw_services to the root directory of the EDK
91 reference design for ML300.
92 $ cp -R <uboot dir>/boards/xilinx/ml300/sw_services <edk dir>
94 Modify system_uboot.mss. Look for the Linux library definition
95 and change it to generate a BSP for U-Boot. An example, might look
99 PARAMETER LIBRARY_NAME = uboot
100 PARAMETER LIBRARY_VER = 1.00.a
101 PARAMETER CONNECTED_PERIPHS = (opb_uart16550_0,opb_ethernet_0)
102 PARAMETER TARGET_DIR = <uboot dir>
105 Now, you are ready to generate the Xilinx ML300 BSP for U-Boot:
106 $ xps -nw system_uboot.xmp
109 If all goes well the new configuration has been copied into the
110 right places within the U-Boot source tree. Recompile U-Boot and
117 - Add support for all other peripherals on ML300.
118 - Read the MAC address out of the IIC EEPROM.
119 - Store the bootargs in the IIC EEPROM.
125 ML300: http://www.xilinx.com/ml300
126 EDK: http://www.xilinx.com/edk
127 ISE: http://www.xilinx.com/ise
128 Reference Design: http://www.xilinx.com/ise/embedded/edk_examples.htm
projects / karo-tx-uboot.git / blob